Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 32P-labeled urokinase (uPA) bound to surface receptors of Detroit 562 cells was immunoprecipitated by anti-uPA antibody. Amino acid analysis showed that tyrosines and serines were the acceptors. Inhibition of protein kinases greatly reduced the 32P incorporation, suggesting that the respective cellular src gene product and protein kinase C were involved in the phosphorylations. Proteins purified on chromatographic columns contained two forms of uPA, a high (HMW) and a low (LMW) molecular weight. Tyrosine-phosphorylation occurs in the HMW and A-chain. Such modifications might modulate the extracellular activities of uPA.
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PMID:Phosphorylation of a surface receptor bound urokinase-type plasminogen activator in a human metastatic carcinomatous cell line. 131 74

Tumor promoting phorbol esters and mezerein strongly induced plasminogen activator (urokinase, uPA) synthesis in porcine kidney cell cultures (LLC-PK1). Induction was due to increased uPA-mRNA levels which rose from 10 to 300 molecules/cell within 2 h of exposure to 16 nM phorbol myristate acetate. We have compared the action of tumor promoters with that of 8-bromo-cAMP, another potent inducer of uPA; the similarities between the two kinds of induction were: both involved transcriptional activation of the uPA gene; both were rapid in onset, changes in transcription rate being detectable within 10-20 min; the initial rates of transcription and uPA-mRNA accumulation were substantial and in the same order of magnitude; neither class of inducer required protein synthesis to stimulate uPA transcription. The main contrast between the two types of agents was that the uPA response to tumor promoters was transient whereas that to cAMP compounds was sustained: cultures rapidly lost their response to tumor promoters within 2 h after initial exposure while retaining responsiveness to cAMP-related agents. The cells developed a specific drug-induced desensitization which was slowly reversed after tumor promoters were removed from the culture medium. Since protein kinase C is now well established as the receptor for phorbol-derived and several other tumor promoters it will be of interest to determine whether desensitization occurs at the level of receptor.
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PMID:Induction and desensitization of plasminogen activator gene expression by tumor promoters. 386 68

The plasminogen activator urokinase promotes tumor invasion by converting plasminogen into plasmin, which degrades several extracellular matrix components. Urokinase can bind to a specific cell surface receptor, which leads to accelerated plasmin production. While there is good evidence indicating a role for this binding site in tumor invasion/metastasis, there is little information concerning the regulation of urokinase receptor expression in invasive cancer. To address this question a series of colon cancer cell lines, which demonstrate either a high or low ability to invade an extracellular matrix-coated porous filter, was characterized for receptor expression at the transcriptional and post-transcriptional levels. The invasive cell lines possessed 10-fold more receptors than their non-invasive counterparts as shown by cross-linking experiments and by Western blotting. Northern blotting indicated that this disparity in receptor number could be largely accounted for by a different amount of steady-state mRNA encoding the binding site. However, neither gene amplification nor enhanced mRNA stability could account for the augmented receptor protein observed for the invasive colon cancer cell types. In contrast, nuclear run-on experiments with representative cell lines revealed that the 10-fold difference in receptor display between the invasive-competent and invasive-deficient cells could be largely accounted for by differences in transcription rates. Transcription of the u-PAR gene in the receptor-deficient GEO cells, but not in the receptor-rich RKO cells, could be augmented by protein kinase C stimulation. These findings provide a clear rationale for studies to determine if the urokinase receptor promoter in invasive colon cancer is activated in cis or in trans.
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PMID:Transcriptional activation of the urokinase receptor gene in invasive colon cancer. 807 48

Urinary trypsin inhibitor (UTI) is a Kunitz-type protease inhibitor. We have reported that UTI inhibited TNF-induced urokinase (uPA) production via a protein kinase C (PKC)-dependent mechanism. It is likely that UTI suppresses tumor cell invasion and metastasis by a mechanism, possibly by inhibiting uPA production. In the present study, we attempted to determine how UTI is associated with PKC, and how UTI is involved in uPA-dependent tumor cell invasion and metastasis. The increments of membrane-associated PKC activity by TNF were subsequently accompanied by a rapid loss of cytosol-associated PKC activity in U937 leukemia cells. Semi-quantitative immunoblotting of membrane and cytosol fractions showed that the translocation of PKC-alpha, -beta, and -epsilon were blocked by the addition of UTI in cells stimulated with TNF but not in cells stimulated with PMA, demonstrating that PKC itself is not sensitive to UTI. This effect was dependent on the carboxyl-terminus of UTI. In addition, UTI neither inhibited TNF binding to cellular receptors nor inactivate PKC and uPA activities directly. Taken together, the experiments suggest that the carboxyl-terminus of UTI may inhibit the PKC-signalling pathways upstream of diacylglycerol by a mechanism, possibly by interrupting the coupling of receptor and effector systems. UTI was shown to have an interesting new function besides being a protease inhibitor. This is the first report that UTI has a selective inhibition of TNF-activated PKC. We conclude that UTI suppresses tumor cell invasion and metastasis by a mechanism that UTI inhibits TNF-stimulated uPA production via a PKC-dependent mechanism.
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PMID:Urinary trypsin inhibitor, a Kunitz-type protease inhibitor, modulates tumor necrosis factor-stimulated activation and translocation of protein kinase C in U937 cells. 945 92

We review the evidence in support of the notion that, upon experimental oncogenic transformation or in spontaneous human cancers, mitogenesis and expression of urokinase (uPA) and its receptor (uPAR) are activated through common signaling complexes and pathways. It is well documented that uPA, uPAR or metalloproteinases (MMPs) are overexpressed in tumor cells of mesenchymal or epithelial origin and these molecules are required for tumor invasion and metastasis. Furthermore, oncogenic stimuli, which may render the transformed cells tumorigenic and metastatic in vivo, activate, in a constitutive fashion, the extracellular-regulated kinases (Erk 1 and 2) classical mitogenic pathway and others such as the NH(2)-Jun-kinase (Jnk). Cells from human tumors or oncogene-transformed cells overexpress uPA and uPAR, and also show a sustained activation of the above-mentioned signaling modules. In this paper we show that the classical mitogenic pathway involving Ras-Erk, PKC-Erk or Rac-JNK, among others, is activated by growth factors or endogenously by oncogenes, and constitutively activates uPA and uPAR expression. All the data obtained from human tumors or experimental systems, incorporated into a general model, indicate that oncogenic stimuli lead to the constitutive activation of mitogenesis and uPA and its receptor expression, through the activation of the same classical and nonclassical signaling complexes and pathways that regulate cell proliferation. We also discuss contrasting points of view. For instance, what governs the differential regulation of mitogenesis and the signal that leads to protease overexpression in a way that allows normal cells during physiological events to respond to growth factors, and proliferate without overexpressing extracellular matrix (ECM) proteases? Or how can cells remodel their microenvironment without proliferating? What restrains benign tumors from overexpressing tumor-associated proteases when they certainly have the mitogenic signal fully activated? This may occur by the differential regulation of transcriptional programs and recent reports reviewed in this paper may provide an insight into how this occurs at the signaling and transcriptional levels.
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PMID:Deregulation of the signaling pathways controlling urokinase production. Its relationship with the invasive phenotype. 1040 35

The integrin vitronectin receptor alphavbeta3 is a mediator of cellular migration and invasion and has been identified as a marker of progression in malignant melanoma. Using a human melanoma model, we have previously shown that this receptor was coordinately expressed with the receptor for the urokinase plasminogen activator (uPAR). In our present study, the link between these receptors was further investigated by assessing the effect of alphavbeta3 ligation on uPAR transcription and function. Using the reverse transcription-polymerase chain reaction, we found that receptor ligation by immobilized monoclonal antibodies (MAbs) induced a rapid increase (up to 4.5 fold) in uPAR mRNA levels, which was maximal 4 hr after cell attachment. An increase was also noted in plasminogen activator inhibitor type-1 (PAI-1) mRNA levels (2.7-fold), but none was noted in uPA levels. In addition, ligation of alphavbeta3 resulted in a significant increase in cell surface-associated plasmin levels, which coincided with a 2- to 3-fold increase in cell invasion as measured in the Matrigel invasion assay. This increase in invasion could in turn be abolished by antibodies directed to uPA and uPAR and by the plasmin inhibitors epsilon-aminocaproic acid and aprotinin. Furthermore, ligation of the integrin alphavbeta3 triggered a rapid increase of up to 12-fold in total cellular PKC activity, and this coincided with the redistribution of PKCbeta, but not PKCalpha, from the cytosol to the membrane. Treatment of the cells with the PKCbeta-specific inhibitor LY379196 blocked uPAR and PAI-1 mRNA induction and reduced the increase in cell invasion due to alphavbeta3 ligation, confirming the involvement of this isoform in the response. The results provide evidence that the vitronectin receptor can enhance invasion by regulating the uPAR/uPA/plasmin system of proteolysis and implicate PKCbeta as an intermediate in the activation pathway.
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PMID:Regulation of urokinase plasminogen activator/plasmin-mediated invasion of melanoma cells by the integrin vitronectin receptor alphaVbeta3. 1116 51

Deregulation of several signaling pathways have been found to be critical for the development of different types of tumors, both in transgenic and spontaneous models. The role of proteases and adhesion molecules during the early stages of tumor progression induced by oncogenes in epithelial and mesenchymal tumors has remained relatively unexplored. This review summarizes recent work showing that different but overlapping signaling effector modules (PKC, v-Ras-RalA-PLD1 or v-Src-RalA-PLD1) induce changes in the production of proteases (uPA and MMPs) and adhesion molecules (fibronectin, CD44, beta 1-integrin) in normal epithelial or mesenchymal cell lines, associated with tumor development in vivo. Overexpression of PKC gamma in normal mammary epithelial cells or of v-Src and v-Ras in NIH3T3 fibroblasts induced in all cases overproduction of uPA and MMPs and a tumorigenic phenotype. Proteases production and tumorigenicity in transformed NIH3T3 cells were dependent on the GTPase RalA. In contrast to the common outcome in protease production by the different tumor promoting stimuli, fibronectin production was high in PKC-overexpressing mammary epithelial cells and it was organized into a rich fibrillar matrix, while oncogene transformed fibroblasts displayed reduced fibronectin production and a total loss of FN fibrillogenesis, an effect also dependent on RalA. These results show that protease overexpression is a common denominator in the acquisition of a malignant phenotype both in mesenchymal and epithelial cells. In contrast there is a dramatic difference in the expression and function of adhesion molecules like fibronectin between these two cell types, suggesting different regulatory roles for this glycoprotein during tumor progression, in cells of different tissular origin.
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PMID:[Signaling pathways regulating the expression of proteases during tumor progression]. 1118 28

Tissue plasminogen activator (tPA) and urokinase (uPA) are targets of plasminogen activator inhibitor-1 (PAI-1) inhibition. We have previously shown that both proteases can also induce PAI-1 secretion in rat smooth muscle cells (SMCs). We now report that both proteases appear to use very similar cellular mechanisms for signal transduction. They induced PAI-1 secretion using a pathway(s) involving protein kinase C (PKC). They also activated the Raf/Mek/mitogen-activated protein kinase (MAPK) pathway, which lies downstream of PKC activation. Activation of protein kinase A (PKA), however, lowered PAI-1 secretion induced by uPA and tPA, as a result of an inhibition of the PKC pathway and inhibition of Raf, Mek and MAPK phosphorylations. Src and syk family non-receptor tyrosine kinases (TK) were also involved in PAI-1 induction. The mechanisms of interaction of these tyrosine kinases with other pathways appeared to be quite different: src appeared to act within the PKC and PKA pathways, while syk operated independently of these pathways. Furthermore, whereas src inhibition resulted in inhibition of Raf/Mek/Erk phosphorylations, syk inhibition could only inhibit Mek and Erk phosphorylations but not the phosphorylation of Raf. These multiple pathways utilized by uPA and tPA to modulate PAI-1 secretion might be involved in determining the proteolytic or antiproteolytic potential of the SMCs under different pathophysiological conditions.
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PMID:Regulation of plasminogen activator inhibitor-1 secretion by urokinase and tissue plasminogen activator in rat epithelioid-type smooth muscle cells. 1191 47

We have previously shown that urokinase receptor physically and functionally interacts with alpha(v)beta5 vitronectin receptor, leading to tumor breast cell migration and invasion. Here, the link between these 2 receptors was further investigated by analyzing the expression levels of urokinase receptor and alpha(v)beta5 integrin in 35 human breast carcinomas and 5 benign breast lesions. The occurrence of a positive correlation between urokinase receptor and alpha(v)beta5 protein levels in benign and malignant tumor specimens prompted us to investigate whether engaged urokinase receptors might modulate alpha(v)beta5 expression. Here, we report the receptor-dependent ability of catalytically inactive urokinase to upregulate the alpha(v) and beta5 chains in MDA-MB-231 and MCF-7 breast carcinoma cell lines in a time- and concentration-dependent manner. This effect is dependent on protein kinase C activity and requires new protein synthesis. Accordingly, the availability of assembled alpha(v)beta5 receptors on the cell surface increases upon urokinase treatment, as shown by immunoprecipitation and immunocytochemical analyses. Exposure to urokinase leads to enhanced tumor cell migration and invasion, which is prevented by the "phosphorylation-like" urokinase receptor antagonist His-uPA(138E/303E), the DNA-binding drug mithramycin, the protein kinase C inhibitor calphostin C and anti-alpha(v)beta5 antibodies. Finally, urokinase enables benign breast MCF-10A cells to cross Matrigel in a alpha(v)beta5- and urokinase receptor-dependent manner, indicating that urokinase controls a regulatory circuitry crucial to breast tumor progression.
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PMID:Engaged urokinase receptors enhance tumor breast cell migration and invasion by upregulating alpha(v)beta5 vitronectin receptor cell surface expression. 1244 96

Thrombogenesis depends on the balance between coagulation and fibrinolysis in vasculature. Vascular endothelial cells (EC) synthesize activators and inhibitors for fibrinolysis, tissue and urokinase plasminogen activators (tPA and uPA) and plasminogen activator inhibitor-1 (PAI-1). Increased levels of PAI-1 with various levels of tPA have been frequently found in plasma of patients with coronary heart disease (CHD) or diabetes mellitus (DM). Dyslipidemia is common feature in patients with CHD or DM, which is characterized by elevated levels of total cholesterol, triglycerides, low or very low density lipoproteins (LDL or VLDL) and decreased levels of high density lipoprotein (HDL). LDL and VLDL stimulated the generation of PAI-1 from cultured EC. LDL and lipoprotein(a) [Lp(a)], another lipoprotein risk factor for CHD, reduced the generation of tPA from EC. HDL did not greatly alter the release of PAI-1 from EC. Oxidative modification by copper, ultraviolet or long exposure to EC enhanced the effect of LDL on the generation of PAI-1 and tPA from EC. Glycation amplified the effect of LDL and Lp(a) on the changes in the generation of the fibrinolytic regulators from EC. Treatment with antioxidants or HDL normalized glycated LDL-induced changes in the generation of fibrinolytic regulators from EC. Activation of protein kinase C is required for oxidized LDL or Lp(a)-induced PAI-1 production in EC. VLDL, but not LDL or its oxidized form, stimulated PAI-1 production through the activation of the VLDL-responsive element in the PAI-1 promoter. Plasma levels of fibrinolytic regulators in CHD or DM patients may be normalized by HMG-CoA reductase inhibitors and angiotensin II converting enzyme inhibitors. This review summarizes the up-to-date information on effects, mechanism and management for disorders in EC-derived fibrinolytic regulators induced by modified lipoproteins.
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PMID:Impact and mechanism for oxidized and glycated lipoproteins on generation of fibrinolytic regulators from vascular endothelial cells. 1284 45


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